DE102004044155A1 - brake units - Google Patents

Abstract

A brake unit (1) has an actuator (2) for an anti-lock function, a pipe block (4, 8), damping pipes (6) made of an elastic material, and metallic pipes (3) attached to the pipe block (4, 8) are mounted. The pipe block (4, 8) is coupled to the actuator (2) via the damping pipes (6). The pipe block (4, 8) may be fixed to the actuator (2) via elastic members (5, 53). The damping tubes (6) and elastic components (5, 53) serve to insulate and prevent the transmission of the vibrations of the actuator (2). As a result, the damper tubes (6) and elastic members (5, 53) prevent generation of vibrationally induced, unpleasant noise perceived by passengers of the vehicle.

Description

These Application claims priority of Japanese Patent Application Serial No. 2003-323181, the contents of which are hereby incorporated by reference is recorded.

The The present invention relates to brake units comprising an actuator to run an anti-lock function, a pipe block and at least have a metal pipe attached to the piping block, wherein the manifold block is adapted to communicate with the actuator to be coupled.

Description of the stand of the technique

traditionally, is a brake unit disclosed in Japanese Laid-Open Patent Publication No. 10-250549 is known. This brake unit has such an actuator that this between a master cylinder and a wheel cylinder is coupled. The actuator has a container for Picking up an operating fluid discharged from the wheel cylinder is a pump for pumping the operating fluid from the container and a motor to operate the pump. The actuator is on one Vehicle body over an elastic member attached.

Accordingly damps the elastic member the vibration, by operating the actuator is caused to prevent the vibration is transmitted to the vehicle body.

however a plurality of tubes is attached to the actuator. Eg is a pipe for coupling the actuator with the master cylinder and a pipe for coupling the actuator to the wheel cylinder on the Actuator attached. These tubes are conventionally metallic tubes. Therefore, the vibration is transmitted to the metallic pipes, when the actuator vibrates, causing the vibration of the metallic Pipeline leads. To prevent this vibration from being transmitted to the fuselage of the vehicle is, the metallic tubes are on the vehicle body via a resin clamp attached, so that this the vibration of the metallic tubes absorbed. However, the vibration of the metallic can be difficult To sufficiently attenuate pipes by the use of the clamp alone or to isolate. If the vibration is not sufficiently damped, For example, part of the vibration may be transmitted to the vehicle body become. The part of the vibration that is transmitted to the vehicle body can cause a vibration or vibration noise, resulting in a unpleasant feeling for Passengers results.

It Accordingly, it is an object of the present invention to provide brake units to teach that does not cause an unpleasant sensation by that Passengers is perceived, lead, namely by Suppress, that the vibration (vibration) of an actuator to the metallic Transfer tubes become.

According to one Aspect of the present teachings are taught braking units, the an actuator for have an anti-lock function; a pipeline block; one or several damping tubes, which are made of an elastic material; and one or several metallic pipes attached to the pipe block are; wherein the piping block communicates with the actuator via the Damping tube / damping pipes is coupled.

With In other words, the actuator with the metallic tubes over the Damping tube / the damping tubes and connected to the piping block.

Accordingly the vibration of the actuator is transmitted through the damper tube (s) muted and therefore prevents the vibrations directly to the metallic tube / tubes. Because it suppresses, that the vibration of the actuator directly to the metallic tube / transferred to metallic pipes is suppressed, the occurrence of vibration noise, the unpleasant feeling for passengers caused.

According to one Another aspect of the present invention is the manifold block on the actuator over a first elastic member attached.

Yet more precisely, the actuator and the metallic tube / metallic Pipes over each other the first elastic member and a fastening device attached. Accordingly dampens and the first elastic member isolates the vibration of the actuator, so that is suppressed that the vibrations easily to the metallic tube / metallic Pipes are transferred. Consequently suppressed the first elastic member finally the occurrence of the vibration noise, the possibly an unpleasant feeling for Passengers may have caused.

According to one Another aspect of the present invention is the manifold block designed so that this attached to the hull of a vehicle becomes. When the piping block is attached to the fuselage of a vehicle is the actuator is also on the vehicle body over the first elastic member and the pipe block attached.

When The result is the vibrations of the actuator by the first elastic Component damped (located between the actuator and the piping block) and therefore prevents them from being transmitted directly to the vehicle body become.

In addition, this suppresses first elastic member as well as the transmission of the vibration of the actuator to the metallic tube (s). As a result has the elastic member at the same time to suppress the function that transmit the vibration of the actuator to the vehicle body will, and suppress, that the vibration of the actuator to the metallic tube / transferred to metallic pipes becomes. That's why it's possible to effectively suppress the vibration of the actuator or isolate.

According to one Another aspect of the present invention is the actuator and the piping block is constructed so that it is separated or individually attached to the fuselage of the vehicle. The actuator gets over at the fuselage of the vehicle a second elastic member attached.

There the actuator on the body of the vehicle via the second elastic member attached, muffles the second elastic member is the vibration of the actuator.

consequently repressed the second elastic member transmitting the vibration of the Actuator to the vehicle body.

on the other hand is the piping block with the actuator via the damping tube (s) coupled. Therefore, learn the piping block no direct transmission of the vibrations of the actuator. The absence of vibration transmission to the piping block allows, that the separately mounted pipe block directly to the vehicle body is attached (i.e. not over an elastic component, damper or similar).

According to one In another further aspect of the present invention, the brake units have at least a first support structure for securing the damping tube (s) on the actuator and / or a second retaining structure for fastening of the damping tube / the damping pipes on the pipe block. The retaining structure prevents the damping tube / damping pipes unintentionally from the actuator or the manifold block in Situations before, while and after the fluid pressure within the damping tube (s) an internal force on the damper tube (s) damping pipes exerts (possibly in a physical extension of the damper tube (s) resulting), removed or disconnected. Next prevents the Holding structure with higher Safety, when a high fluid pressure physically the damping tube (s) expands, the unintentional distance or separation compared with the states in front the point when the fluid pressure the damper tube (s) expands (i.e., when a lower fluid pressure within the damping tube / damping pipes consists).

Accordingly can / can the damping tube / the damping pipes Stable on the actuator and / or the pipe block through the Holding structures are attached. In particular, the fluid pressure within the damping tube (s) the damping tube / the damping pipes expand, since the damping tube / the damping tubes made of an elastic material is / are. However, it stands the holding structure stable with the damping tube / the damping pipes engaged.

According to one Another aspect of the present invention has the holding structure Fixing part, which at a first end portion and / or a second end portion of a damper tube / of damping pipes is arranged, and a support member, disposed on the actuator and / or the manifold block is. The attachment part has a chamfered portion which has a chamfered surface, in that the circumference widens in the direction of an end portion of the damping tube. The support part is constructed so that the fastening part is inserted therein. The support part is also provided with a corresponding beveled section, the one bevelled Area has, so that it engages securely with the fastening part. The beveled sections prevent inadvertent removal or separation of the fastener from the support part due to the at least partial contact between the respective ones bevelled Sections along the beveled Surfaces.

With In other words, the retaining structures have the fastening parts of the Damping tube / the damping tubes and the support parts the actuator and / or the tube block, wherein both parts beveled sections to have. Accordingly, you can the fastening part and the support part the movement of the damping tube a distance or separation direction by using the cone angle the beveled Restrict sections.

Since the fixing member is inserted into the support member, the fixing member is expanded toward the surrounding support member when the fluid pressure (hydraulic pressure) within the Damper tube exerts an outward force on the damping tube. The fluid pressure causes the chamfered portion of the attachment part and the chamfered portion of the support member to be in tight contact with each other, so that the movement of the damping tube in the removal direction is restricted even more surely.

Therefore the holding structure can be even stronger the removal of the damping tube / damping pipes prevent when the fluid pressure the damping tube / the damping tubes expands than before expansion of the damper tube (s) (i.e. at a lower fluid pressure).

According to one Still another aspect of the present invention has the brake units a variety of metallic pipes. Every metallic pipe is with the actuator over a corresponding damping tube (through the piping block) coupled.

Of the Pipe block may be formed of a single component, which is connected to a plurality of metallic pipes. Of the Pipe block can also be constructed so that this one corresponding plurality of block components, each with a Variety of metallic pipes are connected, and a plate part for connecting the plurality of block components together.

additional Objects, features and advantages of the present invention after reading the following detailed description together with the claims and the accompanying drawings, of which:

1 a perspective view of a first embodiment of a brake unit is;

2 an enlarged view of the brake unit of 1 in section, which was made along the line II-II;

3 a view of a mounting arrangement of 1 in section, which was taken along the line III-III;

4 is a perspective view of a second embodiment of a brake unit; and

5 an enlarged view of the brake unit of 4 on average, that was made along the VV.

All the additional Features and teachings disclosed above and below can be separated from each other or used in conjunction with other features and teachings, an improved brake unit and method of use to provide such improved braking units. Representative Examples of the present invention, examples of which many of this extra Characteristics and teachings both separately and in conjunction with one Other uses will now be made with reference to the accompanying drawings described. The detailed description is intended only a person skilled in the art further details for practicing preferred aspects of to teach the present teaching, it is not intended that the To limit the scope of the invention. Only lay the claims the scope of the claimed invention. That's why features can and steps disclosed in the following detailed description are not required to be the invention in the broadest sense exercise, and instead are merely taught to be particularly representative To describe examples of the invention. In addition, different features the representative Examples and dependent claims be combined in ways that are not specifically listed, for additional useful embodiments to provide the present teaching.

(A first embodiment)

With reference to the 1 - 3 For example, a first embodiment of the present invention will be described below.

A brake unit 1 According to the first embodiment, a unit is for an antilock brake system and serves to prevent a wheel / wheels from locking / locking during braking (ie, stopping rotation while the vehicle is still moving).

As in 1 shown has the brake unit 1 an actuator 2 , a pipeline block 4 which is attached to the actuator, and a plurality of metallic tubes 3 (for example 6 as in 1 shown) connected to the piping block 4 are attached. Some of the variety of metallic pipes 3 ( 4 For example, in this embodiment) are adapted so that this is the actuator 2 connect with the wheel cylinders (not illustrated), with other metallic tubes 3 are adjusted so that this is the actuator 2 connect to a master cylinder.

As in 1 shown has the actuator 2 a housing 20 and a plurality of electromagnetic valves (not illustrated) attached to the housing 20 are attached. In the case 20 a container and a pump (not illustrated) are provided. An engine 22 to operate the pump is on the housing 20 appropriate.

A controller that transmits a signal based on the rotational speed of a wheel (s) controls the electromagnetic valves or the like for opening and closing a fluid path inside the actuator 2 is arranged. For example, the electromagnetic valves between the wheel cylinders and the container are within the housing 20 wherein the operating fluid in the brake circuit corresponding to the wheel cylinder is discharged to the reservoir when the electromagnetic valves are opened to reduce the hydraulic pressure on the wheel cylinder.

The operating fluid discharged from the wheel cylinders becomes in the container within the housing 20 added. After being discharged into the container, the pump may transfer the operating fluid from the container to the side of the master cylinder via the plurality of metallic tubes 3 convict.

As in 1 shown is the piping block 4 in the form of a thick plate near the upper surface of the housing 20 arranged. The metallic pipes 3 are on the side of the top surface of the manifold block 4 appropriate.

As in 2 shown has the piping block 4 a plurality of mounting through holes 40 , in which fastening components 41 be used, and a separate plurality of pipe through holes 43 to which a corresponding plurality of metallic tubes 3 is attached.

A first elastic component 5 in the form of a tube is respectively in the fastening through-holes 40 used. A tubular cuff 42 is in the first elastic member 5 used, in which case a fastening component 41 (a bolt in the illustrated example) into the cuff 42 is used.

An elastic material may be in the shape of the first elastic member 5 (for example, materials such as a rubber material and an elastic deformable resin material). As in 2 shown has the first elastic member 5 a concave section 50 Located around the middle of the perimeter outside area. In addition, the first elastic member has 5 a blocking part 51 projecting at an axial end (as viewed in FIG 2 ) the concave section 50 the substantially tubular member is located, and a locking part 52 at the other axial end under the concave section 50 is located. The diameters of the locking parts 51 and 52 are larger than the diameter of the fixing through hole 40 , Accordingly, the first elastic member becomes 5 into the mounting hole 40 used in such a way that this respectively the upper end surface and the lower end surface of the piping block 4 with the blocking part 51 and the blocking part 52 clamps. In this way, the first elastic member 5 on the pipe block 4 appropriate.

The cuff 42 is longer than the first elastic member 5 , Each fastening component 41 attached the cuff 42 on the housing 20 , Accordingly, both the cuff 42 as well as the fastening component 41 integral with the housing 20 appropriate.

Consequently, the piping block is 4 over the first elastic member 5 on the housing 20 attached (on the actuator 2 ).

As in 2 shown has each of the pipe through holes 43 an internal thread 43a on the inner surface of its upper portion. An attachment part 30 is on the internal thread 43a appropriate. As a result, every metallic pipe 3 on the pipe block 4 over the fastening component 30 appropriate.

In addition, on the lower side of each pipe through hole 43 a damping tube 6 arranged. The damping tube 6 is between the piping block 4 and the housing 20 attached.

The damping tube 6 is made by molding an elastic material (for example, an elastic material such as a rubber material and an elastic deformable resin material) in substantially the shape of a tube. The damping tube 6 is on the case 20 through a holding structure 62 attached, wherein the damping tube 6 on the pipe block 4 through a holding structure 63 is appropriate. Therefore, a gap between the piping block 4 and the housing 20 sealed. The fluid paths 20a in the case 20 are arranged over the damping tubes 6 with the pipe through holes 43 connected in the pipeline block 4 are formed.

The holding structure 62 has a lower attachment part 60 at the lower axial end of the damping tube 6 is provided, and a housing support member 20b that in the case 20 is provided. The retaining structure has a similar effect 63 an upper attachment part 61 at the upper axial end of the damper tube 6 is provided, and a block support member 44 that is in the piping block 4 is provided.

At least a part of the fastening part 60 and at least a part of the fastening part 61 Ha ben tapered sections, each at the periphery in the direction of the lower and upper axial end of the damping tube 6 expand and create beveled surfaces. On the other hand, each of the support parts 20b and 44 built in the shape of a groove. At least part of the support part 20b and a part of the support part 44 have chamfered portions that each extend circumferentially toward the rear of the grooves (each directed in a direction to the interior of the housing or the manifold block) and the shapes of the fasteners 60 and 61 match and also create beveled surfaces. Accordingly, the chamfered portions of the fastening parts 60 and 61 and the chamfered portions of the support members 20b and 44 on their surfaces (ie their bevelled surfaces) are in contact when the fasteners 60 and 61 in the support parts 20b and 44 be used.

In other words, the retaining structures have the fastening parts 60 and 61 at the axial ends of the damping tube 6 and the support parts 20b and 44 on the inside of the actuator and the manifold block 4 wherein both combinations of the fixing parts and the support parts have corresponding chamfered portions and chamfered surfaces. Accordingly, the fasteners restrict 60 and 61 and the support parts 20b and 44 the movement of the damping tube 6 in the removal direction by using the taper angles of the chamfered portions.

In addition, the damping tube 6 made of an elastic material as described above. Therefore, the damping pipe can be expanded in a circumferential direction when the fluid pressure (hydraulic pressure) in the damping pipe 6 gets high. If the damping tube 6 Expands, the damping tube can 6 even stronger and even denser the engagement surfaces (the chamfered surfaces, etc.) of the support parts 20b and 44 compared with the states before expansion (ie when the fluid pressure is lower). The extent of the outer surfaces of the fasteners 60 and 61 results in that the retaining structures even more secure the movement of the damping tube 6 restrict in a distance direction.

In other words, the retaining structures can prevent the damping tube 6 accidentally from the actuator 2 or the pipe block 4 is removed before the fluid pressure inside the damping tube 6 the damping tube 6 expands (ie a period of relatively low pressure) or while the fluid pressure within the damping tube 6 the dampening raw 6 expands (ie a period of relatively high pressure). In particular, the holding structure can even more the unintentional removal of the damping tube 6 as compared to a situation of lower fluid pressure before expansion, when the fluid pressure is preventing the damping tube 6 expands.

Accordingly, it is the actuator 2 and the piping block 4 possible, the damping tube 6 to keep stable because of the holding structure. In particular, it is likely that the damping tubes 6 be expanded by the fluid pressure, since the damping tubes 6 may be formed of an elastic material, thereby improving the ability of the support structure to stably support the damper tubes 6 is increased.

In addition, the housing 20 , as in 3 shown, with mounting structures 7 (Only one mounting structure is in 3 shown), so that this on a vehicle body 10 is attached, for example, such as the frame or the body structure of an automobile. The mounting structures 7 can the actuator 2 on the vehicle body 10 Fasten. Every attachment construction 7 has a holder 70 , a first attachment structure 7a and a second attachment structure 7b ,

The first mounting structure 7a has a second elastic component 71 and attaches the housing 20 on the holder 70 via a second elastic component 71 , In addition, the second attachment structure 7b a fastening component 72 and attach the holder 70 on the vehicle body 10 , Accordingly becomes actuator 2 on the vehicle body 10 over the second elastic member 71 attached.

The brake unit 1 is constructed as described above. Therefore, the actuator 2 , as in 2 shown to the metallic pipes 3 over the pipe block 4 and the damping tubes 6 coupled. As a result, the vibration of the actuator 2 through the damping tubes 6 damped, while preventing vibration directly to the metallic pipes 3 is transmitted.

In addition, the actuator 2 with the metallic pipes 3 over the pipe block 4 and the first elastic components 5 coupled. Consequently, the first elastic members are damped 5 the vibration of the actuator 2 , which prevents the vibrations directly to the metallic pipes 3 be transmitted. Consequently, the subsequent occurrence of an unpleasant sensation caused by the passengers due to the noise caused by the vibrations of the metallic tubes 3 is generated, also suppressed.

In addition, the service life of the metallic pipes becomes 3 extended, because it suppresses that the metallic tubes 3 swing, Lich because of the insulating effect of the damping tubes 6 and the first elastic members 5 , In addition, conventionally, the metallic tubes 3 on the vehicle body 10 mounted over resin clamp to absorb the transmitted vibrations. However, according to the present embodiment, it is possible to simplify the structure of the clamps and / or to reduce the total number of clamps used since the vibrations of the metallic pipes are suppressed.

(A second embodiment)

With reference to the 4 and 5 For example, the second embodiment will be described below. A brake unit 1A According to the second embodiment is approximately identical to the first embodiment with an exception that a pipe block 8th and a plate part 80 , in the 4 are shown, instead of the piping block 4 who in 1 is shown are provided. The primary differences between the first embodiment and the second embodiment will be described below. In the description and as in 4 and 5 As shown, identical reference numerals are assigned to elements that are similar or identical to the elements described in the first embodiment.

As in 4 shown has the brake unit 1A a variety of pipeline blocks 8th equal to the number of metallic tubes 3 is. Every metallic pipe 3 is in each case at a pipeline block 8th appropriate.

The pipeline blocks 8th are on the plate part 80 welded so that these are integral to the plate part 80 are attached. The plate part 80 is formed of a metal plate and integrally has an upper surface portion 80a and a side surface portion 80b , The plate part 80 extends along a portion of the outer surface of the housing 20 , The upper surface section 80a extends along the upper surface of the housing 20 and the side surface portion 80b extends along a side surface of the housing 20 ,

As in 5 shown is a variety of through holes 80c in the upper surface section 80a and the side surface portion 80b educated. Tubular first elastic components 53 and cuffs 42 be through each through hole 80c used. mounting components 41 become the center of every cuff 42 used. Then one end of each fastening component 41 on the housing 20 attached so that each cuff 42 and each first elastic member 53 on the housing 20 over the fastening components 41 are attached.

The first elastic component 53 may be made of an elastic material (such as a rubber material and an elastically deformable resin material). In addition, every first elastic component has 53 a concave section 53a located near the center of its outer peripheral surface. The first elastic component 53 has a blocking part 53b that over the concave section 53a is located, and a blocking part 53c that under the concave section 53a is located. These locking parts 53b and locking parts 53c have diameters larger than a diameter of the through hole 80c , After the tubular first elastic member 53 into the through hole 80c is inserted, the first elastic member 53 respectively through the upper end surface and the lower end surface of the plate member 80 through the locking parts 53b and 53c clamped (ie held in position). Therefore, the plate part 80 on the housing 20 over the first elastic member 53 attached.

As in 5 has shown each piping block 8th a through hole 83 , The through hole 83 has an internal thread 83a on the inner surface of its upper portion. The fastening part 30 is on the internal thread 83a attached, wherein the metallic tube 3 over the fastening part 30 on the pipe block 8th is appropriate.

In addition, on the lower side of the through hole 83 each damping tube 6 arranged and between the pipe block 8th and the housing 20 attached.

Each damping tube 6 is made by molding an elastic material (such as a rubber material and an elastically deformable resin material) in the form of a tube as in the first embodiment. In this embodiment, the damping tubes couple 6 the through holes 83 with the fluid paths 20a of the housing 20 , The damping pipes 6 are on the case 20 through a holding structure 62 attached, with the damping tubes 6 on the pipe block 8th through a holding structure 63 are attached.

As in 4 shown is a holder 81 on the plate part 80 (In this embodiment, for example, along the side surface portion 80b located) on the plate part 80 attached.

The holder 81 is formed of a metallic plate extending from the side surface portion 80b in the direction of the vehicle body 10 extends. As in 5 shown is the holder 81 provided with a through hole, in a di ckenrichtung penetrates, wherein a fastening component 82 (For example, a bolt) is inserted into the through hole. The holder 81 is then on the vehicle body 10 over the fastening component 82 attached.

The brake unit 1A is constructed as described above.

That's why the actuator is 2 , as in 5 shown by attaching the piping block 8th on the vehicle body 10 over the pipe blocks 8th , the plate part 80 and the first elastic components 53 appropriate.

Accordingly, the elastic components dampen 53 the vibration of the actuator 2 , so that through the first elastic components 53 is suppressed that the vibrations of the actuator 2 to the vehicle body 10 be transmitted.

In addition, the first elastic components 53 Also stop that the oscillations of the actuator, to the metallic pipes 3 be transmitted. Accordingly, the first elastic members 53 At the same time have the function to prevent oscillations of the actuator 2 to the vehicle body 10 be transmitted, and prevent vibrations of the actuator 2 to the metallic pipes 3 be transmitted. Therefore, according to the present embodiment, it is possible to control the vibrations of the actuator 2 effectively isolate.

Other Embodiments

The The present invention is not limited to the first and second embodiments limited; the following embodiments can be formed.

(1) According to the first embodiment, the fixing members connect 41 the actuator 2 with the pipe block 4 , as in 1 shown. The actuator 2 is then attached to the vehicle body.

However, there is an embodiment in which the actuator is not connected to the manifold block 4 with fastening components 41 connected, and both the actuator 2 as well as the pipe block 4 are mounted separately (and possibly independently) on the vehicle body. The actuator 2 is attached to the vehicle body via second elastic members so that the second elastic members absorb the vibrations of the actuator 2 dampen. In this way, the vibration is isolated so as to prevent it from being transmitted to the vehicle body. On the other hand, the piping block 4 with the actuator 2 over the damping tubes 6 coupled in the same way as in the first embodiment. Therefore, the piping block suffers 4 no vibrations from the actuator 2 , The pipe block 4 does not transmit any vibrations of the actuator 2 even if the piping block 4 is mounted directly on the vehicle body without interposing second elastic members or the like.

(2) In addition, according to the first embodiment, the actuator 2 and the pipe block 4 by a fastening device in one piece, wherein the actuator 2 attached to the vehicle body. However, there is an embodiment in which the piping block 4 on the vehicle body instead of the actuator 2 is appropriate. In the case, in the same manner as in the second embodiment, the first elastic member 5 suppress that the vibration of the actuator 2 is transmitted to the vehicle body, and can further suppress that the vibration of the actuator 2 to the metallic pipes 3 is transmitted.

A brake unit ( 1 ) has an actuator ( 2 ) for an anti-lock function, a piping block ( 4 . 8th ), Damping tubes ( 6 ), which are made of an elastic material, and metallic tubes ( 3 ) connected to the piping block ( 4 . 8th ) are mounted. The pipe block ( 4 . 8th ) is connected to the actuator ( 2 ) via the damping tubes ( 6 ) coupled. The pipe block ( 4 . 8th ) can be connected to the actuator ( 2 ) via elastic components ( 5 . 53 ) be attached. The damping tubes ( 6 ) and elastic components ( 5 . 53 ) serve to isolate and prevent the transmission of the oscillations of the actuator ( 2 ). As a result, the damper tubes ( 6 ) and elastic components ( 5 . 53 ) the generation of vibration-induced, unpleasant noise, which is perceived by passengers of the vehicle.

Claims (11)

A brake unit ( 1 ) comprising: an actuator ( 2 ) for performing an antilock function, a piping block ( 4 . 8th ), at least one metallic tube ( 3 ) connected to the piping block ( 4 . 8th ), and a damping tube ( 6 ) corresponding to each metallic tube ( 3 ), wherein the damping tube ( 6 ) is made of an elastic material, and wherein the piping block ( 4 . 8th ) with the actuator ( 2 ) via the damping tube ( 6 ) is coupled. The brake unit ( 1 ) according to claim 1, further comprising: at least a first elastic component ( 5 . 53 ) the pipeline block ( 4 . 8th ) on the actuator ( 2 ) over the first elastic member ( 5 . 53 ) is attached. The brake unit ( 1 ) according to claim 2, wherein the pipeline block ( 4 . 8th ) is constructed so that this on a fuselage ( 10 ) of a vehicle, and wherein the actuator ( 2 ) on the fuselage ( 10 ) of a vehicle via the pipeline block ( 4 . 8th ) and the first elastic member ( 5 . 53 ) is attached. The brake unit ( 1 ) according to claim 1 or 2, further comprising: at least one second elastic member ( 71 ), wherein the actuator ( 2 ) and the pipe block ( 4 . 8th ) are constructed so that they are each separated on a fuselage ( 10 ) of the vehicle, and wherein at least the actuator ( 2 ) on the fuselage ( 10 ) of the vehicle via the second elastic member ( 71 ) is attached. The brake unit ( 1 ) according to one of the preceding claims, further comprising: a first holding structure ( 62 ) for each damping tube ( 6 ), wherein the first holding structure ( 62 ) the damping tube ( 6 ) on the actuator ( 2 ) attached. The brake unit ( 1 ) according to claim 5, wherein the first holding structure ( 62 ): a first fastening part ( 60 ), which at a first end portion of the damping tube ( 6 ) is arranged, and a first support part ( 20b ) connected to the actuator ( 2 ) is arranged; wherein the first fastening part ( 60 ) has a chamfered portion having a tapered surface on which the periphery extends in the direction of the first end portion of the damper tube (11). 6 ), wherein the first support part ( 20b ) is constructed so that this with the first fastening part ( 60 ) engages when the first end portion of the damping tube ( 6 ) in the actuator ( 2 ) is used, wherein the first support part ( 20b ) is provided with a chamfered portion having a chamfered surface corresponding to the chamfered portion of the first attachment part (Fig. 60 ), and wherein the engagement is made to prevent the first attachment part (12) from being prevented due to the at least partial contact between the chamfered portions along the chamfered surfaces. 60 ) unintentionally from the first support part ( 20b ) Will get removed. The brake unit ( 1 ) according to one of the preceding claims, further comprising: a second holding structure ( 63 ) for each damping tube ( 6 ), wherein the second holding structure ( 63 ) the damping tube ( 6 ) on the pipe block ( 4 . 8th ) attached. The brake unit ( 1 ) according to claim 7, wherein the second support structure ( 63 ): a second fastening part ( 61 ), which at a second end portion of the damping tube ( 6 ) is arranged, and a second support part ( 44 ) connected to the piping block ( 4 . 8th ) is arranged; wherein the second fastening part ( 61 ) has a chamfered portion having a chamfered surface on which the circumference extends in the direction of the second end portion of the damper tube (11). 6 ), wherein the second support part ( 44 ) is constructed so that this with the second fastening part ( 61 ) engages when the second end portion of the damping tube ( 6 ) into the piping block ( 4 . 8th ) is used, wherein the second support part ( 44 ) is provided with a chamfered portion having a chamfered surface corresponding to the chamfered portion of the second attachment part (Fig. 61 ), and wherein the engagement is made to prevent the second attachment part (12) from being prevented due to the at least partial contact between the chamfered portions along the chamfered surfaces. 61 ) unintentionally from the second support part ( 44 ) Will get removed. The brake unit ( 1 ) according to one of the preceding claims, comprising two or more metallic tubes ( 3 ) having; each of the metallic tubes ( 3 ) with the actuator ( 2 ) via the corresponding damping tube ( 6 ) is coupled. The brake unit ( 1 ) according to claim 9, wherein the pipeline block ( 4 ) is formed from a single component so that this with a plurality of metallic pipes ( 3 ) is connected. The brake unit ( 1 ) according to claim 9, further comprising: a plate part ( 80 ); wherein the pipeline block comprises two or more block components ( 8th ) having; wherein each block component with the corresponding metallic tube ( 3 ) connected is; and wherein the plate part ( 80 ) the block components ( 8th ) connects to each other.